// Copyright (c) Lawrence Livermore National Security, LLC and other VisIt
// Project developers.  See the top-level LICENSE file for dates and other
// details.  No copyright assignment is required to contribute to VisIt.

// ************************************************************************* //
//                            avtADIOSFileFormat.C                           //
// ************************************************************************* //

#include <avtMTMDFileFormatInterface.h>
#include <avtParallel.h>
#include "ADIOSFileObject.h"
#include "avtXGCFileFormat.h"
#include <vtkFloatArray.h>
#include <vtkPointData.h>
#include <vtkPolyData.h>
#include <avtDatabaseMetaData.h>
#include <InvalidDBTypeException.h>
#include <InvalidVariableException.h>
#include <DebugStream.h>
#include <avtDatabase.h>
#include <vtkUnstructuredGrid.h>
#include <vtkTriangle.h>
#include <sstream>
#include <fstream>
#include <VisItStreamUtil.h>

#include <vtkCellLocator.h>
#include <vtkGenericCell.h>

using namespace std;

static vector<double>
interpolate(int n, double *x, double *y, int ni, double *xi);

// ****************************************************************************
//  Method: avtEMSTDFileFormat::Identify
//
//  Purpose:
//      Determine if this file is of this flavor.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

bool
avtXGCFileFormat::Identify(const char *fname)
{
    string str(fname);
    if (str.find("xgc.") != string::npos)
        return true;
    else if (str.find("xgc.particle") != string::npos)
        return true;
    
    return false;
}


// ****************************************************************************
//  Method: avtEMSTDFileFormat::CreateInterface
//
//  Purpose:
//      Create an interface for this reader.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

avtFileFormatInterface *
avtXGCFileFormat::CreateInterface(const char *const *list,
                                  int nList,
                                  int nBlock)
{
    int nTimestepGroups = nList / nBlock;
    avtMTMDFileFormat **ffl = new avtMTMDFileFormat*[nTimestepGroups];
    for (int i = 0 ; i < nTimestepGroups ; i++)
        ffl[i] = new avtXGCFileFormat(list[i*nBlock]);
    
    return new avtMTMDFileFormatInterface(ffl, nTimestepGroups);
}

// ****************************************************************************
//  Method: avtEMSTDFileFormat::CreateMeshName
//
//  Purpose:
//      Form the mesh name for this file.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

string
avtXGCFileFormat::CreateMeshName(const string &filename)
{
    string meshname = "";
    
    string::size_type i0 = filename.rfind("xgc.");
    string::size_type i1 = filename.rfind(".bp");
    
    if (i0 != string::npos && i1 != string::npos)
    {
        meshname = filename.substr(0,i0+4) + "mesh.bp";
    }
    return meshname;
}

string
avtXGCFileFormat::CreateDiagName(const string &filename)
{
    string diagname = "";
    
    string::size_type i0 = filename.rfind("xgc.");
    string::size_type i1 = filename.rfind(".bp");
    
    if (i0 != string::npos && i1 != string::npos)
    {
        diagname = filename.substr(0,i0+4) + "oneddiag.bp";
    }
    return diagname;
}

string
avtXGCFileFormat::CreateSeparatrixName(const string &filename)
{
    string sepname = "";
    
    string::size_type i0 = filename.rfind("xgc.");
    string::size_type i1 = filename.rfind(".bp");
    
    if (i0 != string::npos && i1 != string::npos)
    {
        sepname = filename.substr(0,i0) + "sep.dat";
    }
    return sepname;
}

// ****************************************************************************
//  Method: avtXGCFileFormat constructor
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

avtXGCFileFormat::avtXGCFileFormat(const char *nm)
    : avtMTMDFileFormat(nm)
{
    file = new ADIOSFileObject(nm);
    file->SetResetDimensionOrder();
    
    meshFile = NULL;
    diagFile = NULL;
    initialized = false;
    haveSepMesh = false;
    numNodes = 0;
    numTris = 0;
    numPhi = 0;
    
    string str(nm);
    haveParticles = (str.find("xgc.particle") != string::npos);
}

// ****************************************************************************
//  Method: avtXGCFileFormat destructor
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

avtXGCFileFormat::~avtXGCFileFormat()
{
    if (file)
        delete file;
    if (meshFile)
        delete meshFile;
    if (diagFile)
        delete diagFile;
    file = NULL;
    meshFile = NULL;
    diagFile = NULL;
}


// ****************************************************************************
//  Method: avtEMSTDFileFormat::GetNTimesteps
//
//  Purpose:
//      Tells the rest of the code how many timesteps there are in this file.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

int
avtXGCFileFormat::GetNTimesteps()
{
    return file->NumTimeSteps();
}

// ****************************************************************************
//  Method: avtEMSTDFileFormat::GetCycles
//
//  Purpose:
//      
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

void
avtXGCFileFormat::GetCycles(vector<int> &cycles)
{
    file->GetCycles(cycles);
}


// ****************************************************************************
//  Method: avtXGCFileFormat::FreeUpResources
//
//  Purpose:
//      When VisIt is done focusing on a particular timestep, it asks that
//      timestep to free up any resources (memory, file descriptors) that
//      it has associated with it.  This method is the mechanism for doing
//      that.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

void
avtXGCFileFormat::FreeUpResources(void)
{
}


// ****************************************************************************
//  Method: avtXGCFileFormat::PopulateDatabaseMetaData
//
//  Purpose:
//      This database meta-data object is like a table of contents for the
//      file.  By populating it, you are telling the rest of VisIt what
//      information it can request from you.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

void
avtXGCFileFormat::PopulateDatabaseMetaData(avtDatabaseMetaData *md, int timeState)
{
    debug5<<"avtXGCFileFormat::PopulateDatabaseMetaData()"<<endl;
    Initialize();
    md->SetFormatCanDoDomainDecomposition(false);

    //Particles
    if (haveParticles)
    {
        int numBlocks = 1;
        
        map<string, ADIOS_VARINFO*>::const_iterator it;
        for (it = file->variables.begin(); it != file->variables.end(); it++)
        {
            if (it->first.find("iphase") != string::npos)
            {
                ADIOS_VARINFO *avi = it->second;
                numBlocks = avi->sum_nblocks;
                break;
            }
        }
        
        avtMeshMetaData *mesh = new avtMeshMetaData;
        mesh->name = "particles";
        mesh->meshType = AVT_POINT_MESH;
        mesh->numBlocks = numBlocks;
        mesh->blockOrigin = 0;
        mesh->spatialDimension = 3;
        mesh->topologicalDimension = 3;
        mesh->blockTitle = "blocks";
        mesh->blockPieceName = "block";
        mesh->hasSpatialExtents = false;
        md->Add(mesh);
        return;
    }

    //Mesh.
    avtMeshMetaData *mesh = new avtMeshMetaData;
    mesh->name = "mesh";
    mesh->meshType = AVT_UNSTRUCTURED_MESH;
    mesh->numBlocks = 1;
    mesh->blockOrigin = 0;
    mesh->spatialDimension = 3;
    mesh->topologicalDimension = 3;
    mesh->blockTitle = "blocks";
    mesh->blockPieceName = "block";
    mesh->hasSpatialExtents = false;
    md->Add(mesh);

    if (haveSepMesh)
    {
        AddMeshToMetaData(md, "sep_mesh", AVT_UNSTRUCTURED_MESH, NULL, 1, 0, 3, 3);
        AddScalarVarToMetaData(md, "sep", "sep_mesh", AVT_NODECENT);
    }

    //Add pot0....
    AddMeshToMetaData(md, "mesh2D", AVT_UNSTRUCTURED_MESH, NULL, 1, 0, 3, 3);
    AddScalarVarToMetaData(md, "pot0", "mesh2D", AVT_NODECENT);
    AddScalarVarToMetaData(md, "psi", "mesh2D", AVT_NODECENT);

    map<string, ADIOS_VARINFO*>::const_iterator it;
    for (it = file->variables.begin(); it != file->variables.end(); it++)
    {
        ADIOS_VARINFO *avi = it->second;
        if (avi->ndim == 1)
            continue;

        avtScalarMetaData *smd = new avtScalarMetaData();
        smd->meshName = "mesh";
        smd->name = it->first;
        if (smd->name[0] == '/')
        {
            smd->originalName = smd->name;
            smd->name = string(&smd->name[1]);
        }
        smd->centering = AVT_NODECENT;
        md->Add(smd);
    }
    
    if (diagFile)
        AddScalarVarToMetaData(md, "turbulence", "mesh", AVT_NODECENT);
}


// ****************************************************************************
//  Method: avtXGCFileFormat::GetMesh
//
//  Purpose:
//      Gets the mesh associated with this file.  The mesh is returned as a
//      derived type of vtkDataSet (ie vtkRectilinearGrid, vtkStructuredGrid,
//      vtkUnstructuredGrid, etc).
//
//  Arguments:
//      timestate   The index of the timestate.  If GetNTimesteps returned
//                  'N' time steps, this is guaranteed to be between 0 and N-1.
//      meshname    The name of the mesh of interest.  This can be ignored if
//                  there is only one mesh.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
//  Modifications:
//
//   Dave Pugmire, Tue Jun 17 13:24:30 EDT 2014
//   Bug fix to ADIOSFile interface.
//
// ****************************************************************************

vtkDataSet *
avtXGCFileFormat::GetMesh(int timestate, int domain, const char *meshname)
{
    debug1 << "avtXGCFileFormat::GetMesh " << meshname << endl;
    Initialize();
    if (!strcmp(meshname, "sep_mesh"))
        return GetSepMesh();
    if (!strcmp(meshname, "mesh2D"))
        return GetMesh2D(timestate, domain);
    if (!strcmp(meshname, "particles"))
        return GetParticleMesh(timestate, domain);

    vtkDataArray *buff = NULL;
    meshFile->ReadScalarData("/coordinates/values", timestate, &buff);
    
    vtkPoints *pts = vtkPoints::New();
    pts->SetNumberOfPoints(numNodes * numPhi);
    vtkUnstructuredGrid *grid = vtkUnstructuredGrid::New();
    grid->SetPoints(pts);

    vtkDataArray *conn = NULL, *nextNode = NULL;
    meshFile->ReadScalarData("/cell_set[0]/node_connect_list", timestate, &conn);
    if (!meshFile->ReadScalarData("/nextnode", timestate, &nextNode))
        meshFile->ReadScalarData("nextnode", timestate, &nextNode);

    //Create the points.
    double dPhi = 2.0*M_PI/(double)numPhi;
    for (int i = 0; i < numPhi; i++)
    {
        double phi = (double)i * dPhi;
        phi = -phi;
        
        double pt[3];
        for (int p = 0; p < numNodes; p++)
        {
            double R = buff->GetTuple1(p*2 +0);
            double Z = buff->GetTuple1(p*2 +1);
            
            pt[0] = R*cos(phi);
            pt[1] = R*sin(phi);
            pt[2] = Z;
            pts->SetPoint(p+i*numNodes, pt);
        }
    }
    buff->Delete();
    pts->Delete();

    //Make the wedges.
    int *connPtr = (int *)(conn->GetVoidPointer(0));
    int *nnPtr = (int *)(nextNode->GetVoidPointer(0));
    vtkIdType wedge[6];
    for (int i = 0; i < numPhi; i++)
    {
        for (int p = 0; p < numTris*3; p+=3)
        {
            int off = i*(numNodes);
            wedge[0] = connPtr[p+0] + off;
            wedge[1] = connPtr[p+1] + off;
            wedge[2] = connPtr[p+2] + off;

            off = (i+1)*(numNodes);
            int p0 = connPtr[p+0];
            int p1 = connPtr[p+1];
            int p2 = connPtr[p+2];

            p0 = nnPtr[p0];
            p1 = nnPtr[p1];
            p2 = nnPtr[p2];

            //Connect back to the first plane.
            if (i == numPhi-1)
                off = 0;
            
            wedge[3] = p0 + off;
            wedge[4] = p1 + off;
            wedge[5] = p2 + off;
            grid->InsertNextCell(VTK_WEDGE, 6, wedge);
        }
    }
    conn->Delete();
    nextNode->Delete();
    return grid;
}

vtkDataSet *
avtXGCFileFormat::GetParticleMesh(int ts, int domain)
{
    vtkDataArray *buff = NULL;
    file->ReadScalarData("iphase", ts, domain, &buff);
    int nPts = buff->GetNumberOfTuples() / 9;
    if (nPts == 0)
    {
        if (buff)
            buff->Delete();
        return NULL;
    }
    
    vtkPoints *pts = vtkPoints::New();
    pts->SetNumberOfPoints(nPts);
    vtkUnstructuredGrid *grid = vtkUnstructuredGrid::New();
    grid->SetPoints(pts);

    double pt[3];
    for (int i = 0; i < nPts; i++)
    {
        double r = buff->GetTuple1(i*9 +0);
        double z = buff->GetTuple1(i*9 +1);
        double p = buff->GetTuple1(i*9 +2);
        double X = r*cos(p), Y = r*sin(p), Z = z;

        pt[0] = X;
        pt[1] = Z;
        pt[2] = -Y;
        pts->SetPoint(i, pt);
        //cout<<i<<": ["<<pt[0]<<" "<<pt[1]<<" "<<pt[2]<<"]"<<endl;

        vtkIdType id = i;
        grid->InsertNextCell(VTK_VERTEX, 1, &id);
    }

    pts->Delete();
    buff->Delete();

    return grid;
}

//****************************************************************************
// Method:  avtXGCFileFormat::GetMesh2D
//
// Purpose:
//   Read 2D mesh
//
// Programmer:  Dave Pugmire
// Creation:    June 17, 2014
//
// Modifications:
//
//   Dave Pugmire, Tue Jun 17 13:24:30 EDT 2014
//   Bug fix to ADIOSFile interface.
//
//****************************************************************************


vtkDataSet *
avtXGCFileFormat::GetMesh2D(int ts, int dom)
{
    vtkDataArray *buff = NULL;
    meshFile->ReadScalarData("/coordinates/values", ts, &buff);
    
    vtkPoints *pts = vtkPoints::New();
    pts->SetNumberOfPoints(numNodes);
    vtkUnstructuredGrid *grid = vtkUnstructuredGrid::New();
    grid->SetPoints(pts);

    vtkDataArray *conn = NULL;
    meshFile->ReadScalarData("/cell_set[0]/node_connect_list", ts, &conn);

    //Create the points.
    double dPhi = 2.0*M_PI/(double)numPhi;
    double phi = 0.0;
    double pt[3];
    for (int p = 0; p < numNodes; p++)
    {
        double R = buff->GetTuple1(p*2 +0);
        double Z = buff->GetTuple1(p*2 +1);
            
        /*
        pt[0] = R*cos(phi);
        pt[1] = R*sin(phi);
        pt[2] = Z;
        */

        pt[0] = R*cos(phi);
        pt[2] = R*sin(phi);
        pt[1] = Z;
        pts->SetPoint(p, pt);
    }
    buff->Delete();
    pts->Delete();

    //Make the wedges.
    int *connPtr = (int *)(conn->GetVoidPointer(0));
    vtkIdType tri[3];
    for (int p = 0; p < numTris*3; p+=3)
    {
        tri[0] = connPtr[p+0];
        tri[1] = connPtr[p+1];
        tri[2] = connPtr[p+2];
        grid->InsertNextCell(VTK_TRIANGLE, 3, tri);
    }
    
    conn->Delete();
    return grid;
}

//****************************************************************************
// Method:  avtXGCFileFormat::GetSepMesh()
//
// Purpose:
//   Create separatrix mesh.
//
// Programmer:  Dave Pugmire
// Creation:    April  9, 2014
//
// Modifications:
//
//****************************************************************************

vtkDataSet *
avtXGCFileFormat::GetSepMesh()
{
    vtkUnstructuredGrid *ds = vtkUnstructuredGrid::New();

    ifstream ifile(sepFileName.c_str());
    if (!ifile.good())
        return NULL;

    //Read the separatrix.
    int n;
    ifile >> n;
    std::vector<double> R, Z;
    double v;
    
    for (int i = 0; i < n; i++)
    {
        ifile >> v;
        R.push_back(v);
        ifile >> v;
        Z.push_back(v);
    }

    int nPts = n *numPhi;
    vtkPoints *pts = vtkPoints::New();
    pts->SetNumberOfPoints(nPts);
    ds->SetPoints(pts);

    float dPhi = 2.0*M_PI/(float)numPhi;
    for (int i = 0; i < numPhi; i++)
    {
        float phi = (float)i * dPhi;
        phi = -phi;
        for (int j = 0; j < n; j++)
        {
            pts->SetPoint(i*n+j, R[j]*cos(phi), R[j]*sin(phi), Z[j]);
        }
    }
    vtkIdType quad[4];
    for (int i = 0; i < numPhi; i++)
    {
        for (int j = 0; j < n-1; j++)
        {
            quad[0] = i*n+j + 0;
            quad[1] = i*n+j + 1;
            if (i == numPhi-1)
            {
                quad[2] = 0*n+j + 1;
                quad[3] = 0*n+j + 0;
            }
            else
            {
                quad[2] = (i+1)*n+j + 1;
                quad[3] = (i+1)*n+j + 0;
            }
            ds->InsertNextCell(VTK_QUAD, 4, quad);
        }
    }
    
    pts->Delete();
    return ds;
}


// ****************************************************************************
//  Method: avtXGCFileFormat::GetVar
//
//  Purpose:
//      Gets a scalar variable associated with this file.  Although VTK has
//      support for many different types, the best bet is vtkFloatArray, since
//      that is supported everywhere through VisIt.
//
//  Arguments:
//      timestate  The index of the timestate.  If GetNTimesteps returned
//                 'N' time steps, this is guaranteed to be between 0 and N-1.
//      varname    The name of the variable requested.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

vtkDataArray *
avtXGCFileFormat::GetVar(int timestate, int domain, const char *varname)
{
    debug1 << "avtXGCFileFormat::GetVar " << varname << endl;
    Initialize();

    if (!strcmp(varname, "turbulence"))
        return GetTurbulence(timestate, domain);
    if (!strcmp(varname, "sep"))
        return GetSep();
    if (!strcmp(varname, "psi"))
        return GetPsi();

    vtkDataArray *var = NULL;
    file->ReadScalarData(varname, timestate, &var);
    if (var == NULL)
        EXCEPTION1(InvalidVariableException, varname);
    return var;
}

//****************************************************************************
// Method:  avtXGCFileFormat::GetSep
//
// Purpose:
//   Get separatrix dummy variable.
//
//
// Programmer:  Dave Pugmire
// Creation:    April  9, 2014
//
// Modifications:
//
//****************************************************************************


vtkDataArray *
avtXGCFileFormat::GetSep()
{
    vtkDataSet *ds = GetSepMesh();
    int nPts = ds->GetNumberOfPoints();
    ds->Delete();

    vtkFloatArray *var = vtkFloatArray::New();
    var->SetNumberOfTuples(nPts);
    for (int i = 0; i < nPts; i++)
        var->SetTuple1(i, 0.0);
    
    return var;
}


//****************************************************************************
// Method:  avtXGCFileFormat::GetPsi
//
// Purpose:
//   Read PSI from the mesh file.
//
// Programmer:  Dave Pugmire
// Creation:    October 29, 2014
//
// Modifications:
//
//****************************************************************************

vtkDataArray *
avtXGCFileFormat::GetPsi()
{
    vtkDataArray *psi;
    if (!meshFile->ReadScalarData("/psi", 0, &psi))
        meshFile->ReadScalarData("psi", 0, &psi);

    return psi;
}

//****************************************************************************
// Method:  avtXGCFileFormat::GetTurbulence
//
// Purpose:
//   Calculate turbulence.
//
// Programmer:  Dave Pugmire
// Creation:    April  9, 2014
//
// Modifications:
//
//****************************************************************************

vtkDataArray *
avtXGCFileFormat::GetTurbulence(int ts, int dom)
{
    vtkDataArray *pot0 = NULL, *potm0 = NULL, *eden = NULL, *dpot = NULL, *psi = NULL;

    if(!file->ReadScalarData("/dpot", ts, &dpot))
        file->ReadScalarData("dpot", ts, &dpot);
    if (!file->ReadScalarData("/pot0", ts, &pot0))
        file->ReadScalarData("pot0", ts, &pot0);
    if (!file->ReadScalarData("/potm0", ts, &potm0))
        file->ReadScalarData("potm0", ts, &potm0);
    if (!file->ReadScalarData("/eden", ts, &eden))
        file->ReadScalarData("eden", ts, &eden);
    if (!meshFile->ReadScalarData("/psi", ts, &psi))
        meshFile->ReadScalarData("psi", ts, &psi);

    vtkDataArray *psid=NULL, *dens=NULL, *temp1=NULL, *temp2=NULL;
    diagFile->ReadScalarData("/psi_mks", ts, &psid);
    diagFile->ReadScalarData("/e_gc_density_avg", ts, &dens);
    diagFile->ReadScalarData("/e_perp_temperature_avg", ts, &temp1);
    diagFile->ReadScalarData("/e_parallel_mean_en_avg", ts, &temp2);

    vector<double> temp(temp1->GetNumberOfTuples());
    for (int i = 0; i <temp.size(); i++)
        temp[i] = 2.0*(temp1->GetTuple1(i)+temp2->GetTuple1(i)) / 3.0;

    //Interpolate temperature onto psi.
    int n = psid->GetNumberOfTuples();
    int ni = psi->GetNumberOfTuples();
    double *x = (double*)psid->GetVoidPointer(0);
    double *y = &temp[0];
    double *xi = (double*)psi->GetVoidPointer(0);
    vector<double> te = interpolate(n, x, y, ni, xi);

    //Interpolate density onto psi.
    y = (double*)dens->GetVoidPointer(0);
    vector<double> de = interpolate(n, x, y, ni, xi);

    vtkFloatArray *arr = vtkFloatArray::New();
    int nTuples = eden->GetNumberOfTuples();
    arr->SetNumberOfTuples(nTuples);

    vector<double> meanEden(numNodes, 0.0);
    for (int i = 0; i < numPhi; i++)
        for (int j = 0; j < numNodes; j++)
            meanEden[j] += eden->GetTuple1(i*numNodes + j);
    for (int i = 0; i < numNodes; i++)
        meanEden[i] /= (double)numPhi;

    for (int i = 0; i < numPhi; i++)
    {
        for (int j = 0; j < numNodes; j++)
        {
            int idx = i*numNodes+j;
            double v1 = (dpot->GetTuple1(idx) - (potm0->GetTuple1(j)-pot0->GetTuple1(j)));
            v1 = v1 / te[j];
            
            double v2 = (eden->GetTuple1(idx) - meanEden[j]);
            v2 = v2 / de[j];

            double val = v1+v2;
            arr->SetTuple1(idx, val);
        }
    }

    pot0->Delete();
    potm0->Delete();
    eden->Delete();
    dpot->Delete();
    psi->Delete();
    psid->Delete();
    dens->Delete();
    temp1->Delete();
    temp2->Delete();
    
    /*
    //Sanity check, compute the STD.
    double mean = 0.0;
    for (int i = 0; i < nTuples; i++)
        mean += arr->GetTuple1(i);
    mean /= (double)nTuples;
    
    double variance = 0.0;
    for (int i = 0; i < nTuples; i++)
    {
        double x = arr->GetTuple1(i) - mean;
        variance += x*x;
    }
    double stnD = sqrt(variance/(double)nTuples);
    cout<<"stnD: "<<stnD<<endl;
    */
    
    return arr;
}


// ****************************************************************************
//  Method: avtXGCFileFormat::GetVectorVar
//
//  Purpose:
//      Gets a vector variable associated with this file.  Although VTK has
//      support for many different types, the best bet is vtkFloatArray, since
//      that is supported everywhere through VisIt.
//
//  Arguments:
//      timestate  The index of the timestate.  If GetNTimesteps returned
//                 'N' time steps, this is guaranteed to be between 0 and N-1.
//      varname    The name of the variable requested.
//
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

vtkDataArray *
avtXGCFileFormat::GetVectorVar(int timestate, int domain, const char *varname)
{
    return NULL;
}

// ****************************************************************************
//  Method: avtXGCFileFormat::Initialize
//
//  Purpose:
//      Initialize the reader.
//
//  Programmer: Dave Pugmire
//  Creation:   Tue Mar  9 12:40:15 EST 2010
//
// ****************************************************************************

void
avtXGCFileFormat::Initialize()
{
    if (! file->Open())
        EXCEPTION0(ImproperUseException);

    if (initialized)
        return;
    
    //Open the mesh file.
    meshFile = new ADIOSFileObject(avtXGCFileFormat::CreateMeshName(file->Filename()));
    meshFile->SetResetDimensionOrder();
    if (! meshFile->Open())
        EXCEPTION0(ImproperUseException);
    
    string diagNm = avtXGCFileFormat::CreateDiagName(file->Filename());
    ifstream df(diagNm.c_str());
    if (df.good())
    {
        diagFile = new ADIOSFileObject(diagNm);
        diagFile->SetResetDimensionOrder();
        if (! diagFile->Open())
            EXCEPTION0(ImproperUseException);
    }

    //See if we have a separtrix mesh file.
    sepFileName = avtXGCFileFormat::CreateSeparatrixName(file->Filename());
    ifstream f(sepFileName.c_str());
    haveSepMesh = f.good();

    //Read in mesh/plane info.
    if (!meshFile->GetScalar("/n_n", numNodes))
        meshFile->GetScalar("n_n", numNodes);
    if (!meshFile->GetScalar("/n_t", numTris))
        meshFile->GetScalar("n_t", numTris);
    if (!file->GetScalar("/nphi", numPhi))
        file->GetScalar("nphi", numPhi);

    initialized = true;
}

//****************************************************************************
// Method:  interpolate
//
// Purpose:
//   calculate yi (from xi) based x and y.
//
// Programmer:  Dave Pugmire
// Creation:    April  9, 2014
//
// Modifications:
//
//****************************************************************************

static vector<double>
interpolate(int n, double *x, double *y, int ni, double *xi)
{
    vector<double> yi(ni);
    
    for (int i = 0; i < ni; i++)
    {
        yi[i] = 0.0;
        double val = xi[i];
        if (val <= x[0])
        {
            yi[i] = y[0];
            continue;
        }
        else if ( val >= x[n-1])
        {
            yi[i] = y[n-1];
            continue;
        }
        for (int j = 0; j < n-1; j++)
        {
            if (val >= x[j] && val <= x[j+1])
            {
                double dy = y[j+1]-y[j];
                double t = (xi[i]-x[j])/(x[j+1]-x[j]);
                yi[i] = y[j] + t*dy;
                break;
            }
        }
    }

    return yi;
}
